Example . An organic compound (A) with molecular formula C H O forms an orange-red precipitate with , -DNP reagent and gives yellow precipitate on heating with iodine in the presence of sodium hydroxide. It neither reduces Tollens’ or Fehlings’ reagent, nor does it decolourise bromine water or Baeyer’s reagent. On drastic oxidation with chromic acid, it gives a carboxylic acid (B) having molecular formula C H O . Identify the compounds (A) and (B) and explain the reactions involved. (A) forms , -DNP derivative. Therefore, it is an aldehyde or a ketone. Since it does not reduce Tollens’ or Fehling reagent, (A) must be a ketone. (A) responds to iodoform test. Therefore, it should be a methyl ketone. The molecular formula of (A) indicates high degree of unsaturation, yet it does not decolourise bromine water or Baeyer’s reagent. This indicates the presence of unsaturation due to an aromatic ring. Compound (B), being an oxidation product of a ketone should be a carboxylic acid. The molecular formula of (B) indicates that it should be benzoic acid and compound (A) should, therefore, be a monosubstituted aromatic methyl ketone. The molecular formula of (A) indicates that it should be phenyl methyl ketone (acetophenone). Reactions are as follows: (iii) Oxidation of methyl ketones by haloform reaction : Aldehydes and ketones having at least one methyl group linked to the carbonyl carbon atom (methyl ketones) are oxidised by sodium hypohalite to sodium salts of corresponding carboxylic acids having one carbon atom less than that of carbonyl compound. The methyl group is converted to haloform. This oxidation does not affect a carbon-carbon double bond, if present in the molecule. Iodoform reaction with sodium hypoiodite is also used for detection of CH CO group or CH CH(OH) group which produces CH CO group on oxidation. . Reactions due to a-hydrogen Acidity of aaaaa -hydrogens of aldehydes and ketones: The aldehydes and ketones undergo a number of reactions due to the acidic nature of a -hydrogen. The acidity of a -hydrogen atoms of carbonyl compounds is due to the strong
📖 generic · CBSE Class 12th English Medium · CHEMISTRY · Page 14question
Example 8.4
Chapter 8: Aldehydes,Ketones and Carboxylic Acids · CHEMISTRY
Example
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